Image reading device having antenna including communication surface disposed along side wall

ABSTRACT

An image reading device includes a casing, an image reading unit, a mounting board, and an antenna. The casing has a side wall positioned at one end thereof in a first direction. The image reading unit is accommodated in the casing and configured to read an image of an original document by scanning in the first direction. The mounting board is accommodated in the casing and mounts an electronic component that is used when the image reading unit reads the image, the mounting board extending in the first direction. The antenna is accommodated in the casing and configured to receive or transmit a radio signal. The antenna is disposed along and adjacent the side wall.

CROSS REFERENCE TO RELATED APPLICATION

This application is a continuation application of U.S. patentapplication Ser. No. 14/227,984, filed Mar. 27, 2014, and further claimspriority from Japanese Patent Application No. 2013-071044 filed Mar. 29,2013. The entire contents of both the priority applications areincorporated herein by reference.

TECHNICAL FIELD

The invention disclosed herein relates to a configuration of an imagereading device having a wireless communication function.

BACKGROUND

Japanese Patent Application Publication No. 2006-56017 discloses adevice having a wireless communication function. In the device, a cutoutpart is provided in one portion of a side plate made of a metal plate,and a wireless communication board having an antenna is disposed in thecutout part. This configuration reduces an influence of the side plateon communication with an external device, thereby ensuring the state ofthe communication with the external information device.

SUMMARY

However, the communication state with external devices such as externalinformation devices can be affected not only by the side plate but alsoby electronic hardware provided inside the device. For example, thedevice includes a circuit board for controlling the device therein. Thecircuit board generates electromagnetic waves when performing a controlprocess and any other processes. The problem is that, if the antenna ofthe wireless communication board receives the electromagnetic wavesgenerated from the circuit board, noise is generated in signals that aretransmitted or received by the wireless communication board, leading todeterioration of the communication state. Moreover, a componentcontaining metal is mounted on the circuit board, and the circuit boarditself contains metal that is used to form lines (traces). The problemis that, if the signals that is transmitted or is to be received by thewireless communication board are blocked by the metal in the circuitboard and the component, the strength of the signals that aretransmitted or received by the wireless communication board areweakened, leading to deterioration of the communication state.

The present invention provides a technique for preventing thedeterioration of the state of the communication in the image readingdevice having the wireless communication function.

In order to attain the above and other objects, the invention providesan image reading device. The image reading device includes a casing, animage reading unit, a mounting board, and an antenna. The casing has aside wall positioned at one end thereof in a first direction. The imagereading unit is accommodated in the casing and configured to read animage of an original document by scanning in the first direction. Themounting board is accommodated in the casing and mounts an electroniccomponent that is used when the image reading unit reads the image, themounting board extending in the first direction. The antenna isaccommodated in the casing and configured to receive or transmit a radiosignal. The antenna is disposed along and adjacent the side wall.

BRIEF DESCRIPTION OF THE DRAWINGS

The particular features and advantages of the invention as well as otherobjects will become apparent from the following description taken inconnection with the accompanying drawings, in which:

FIG. 1 is a perspective diagram of an image reading device according toan embodiment of the invention;

FIG. 2 is a cross section diagram of the image reading device when a topcover is at an uncovering position;

FIG. 3 is a top view of the image reading device when the top cover isat an uncovering position;

FIG. 4 is a block diagram illustrating an electrical configuration ofthe image reading device;

FIG. 5 is an explanatory diagram illustrating a positional relationbetween a mounting board and an antenna for wireless communicationsaccording to the embodiment;

FIG. 6 is an explanatory diagram illustrating a positional relationbetween a mounting board and an antenna for wireless communicationsaccording to a comparative example;

FIG. 7 is an explanatory diagram illustrating communication performanceof the image reading device according to the embodiment; and

FIG. 8 is an explanatory diagram illustrating communication performanceof the image reading device according to the comparative example.

DETAILED DESCRIPTION 1. Mechanical Configuration of Image Reading Device

An image reading device (scanner) 1 according to an embodiment of theinvention will be described while referring to the accompanyingdrawings. The terms “upward”, “downward”, “upper”, “lower”, “above”,“below”, “beneath”, “right”, “left”, “front”, “rear” and the like willbe used throughout the description assuming that the image readingdevice 1 is disposed in an orientation in which it is intended to beused. In use, the scanner 1 is disposed as shown in FIG. 1. The phrase“parallel to” means not only exact parallel, but also an almost parallelstate in the embodiment.

As shown in FIG. 1, the image reading device 1 includes a paper feedtray 2 (an top cover 9), a main body 3 formed with a sheet dischargeopening 4, and a casing 10. The main body 3 includes reading sections 24and 25 (FIG. 2) therein. A plurality of sheet documents SH can be placedon the paper feed tray 2. The sheet document SH is a sheet type oforiginal document, such as, a plain paper or the like. In accordancewith image-reading instructions from a user, the image reading device 1conveys a sheet document SH placed on the paper feed tray 2 to the sheetdischarge opening 4 as indicated by arrow 51. While conveying the sheetdocument SH, the image reading device 1 reads the sheet document SH byusing the reading sections 24 and 25.

The main body 3 is formed with a card insertion opening 5 and a carddischarge opening 6. That is, the card insertion opening 5 is formed ina rear surface of the main body 3. A card document C, that is a cardtype of original, such as a business card, is insertable to the cardinsertion opening. In accordance with image-reading instructions from auser, the image reading device 1 conveys the card document C insertedinto the card insertion opening 5 to the card discharge opening 6. Whileconveying the card document C, the image reading device reads the carddocument C by using the reading sections 24 and 25.

As shown in FIG. 2, the main body 3 is covered with the casing 10 thatis made of plastic or metal plate. An upper surface of the casing 10 iscovered with the top cover 9. In the casing 10, the main body 3 has afirst conveyance path 22A and a second conveyance path 22B. The firstconveyance path 22A connects the paper feed tray 2 to the sheetdischarge opening 4, and the second conveyance path 22B connects thecard insertion opening 5 to the card discharge opening 6. Around theconveyance paths 22A and 22B, the main body further includes a paperfeed roller 20, a separation pad 21, conveyance rollers 23, the readingsections 24 and 25, various sensors such as a sheet front sensor(hereinafter referred to as a sheet F sensor) 61 (FIG. 3), a card frontsensor (referred to as a card F sensor, hereinafter) 62, a sheet rearsensor (hereinafter referred to as a sheet R sensor) 63 (FIG. 3), and acard rear sensor (hereinafter referred to as a card R sensor) 64,various circuit boards such as a mounting board 27, a wirelesscommunication board 28, and a display board 29, a touch panel 65, and amotor M (See FIG. 3).

The top cover 9 rotates about a shaft 9A with respect to the main body 3between a covering position (state) and an uncovering position (state).When the top cover 9 is moved to the covering position, the top cover 9covers an upper portion of the main body 3. When the top cover 9 ismoved to the uncovering position, the top cover 9 does not cover theupper portion of the main body and thus the upper portion of the mainbody 3 is exposed. The top cover 9 at an opening position forms a rearend portion of the paper feed tray 2 shown in FIG. 1.

As shown in FIG. 5, the paper feed roller 20 is rotated and driven bythe motor M (see FIG. 3). The paper feed roller 20 can contact to asheet document SH placed on the paper feed tray 2, and draw a pluralityof sheet documents SH placed on the paper feed tray 2 into the main body3 by using a frictional force. The separation pad 21 uses a frictionalforce to separate one sheet document SH from a plurality of sheetdocuments SH. Accordingly, the sheet document SH is separated from theplurality of sheet documents SH placed on the paper feed tray 2, and isdrawn into the main body 3.

The conveyance rollers 23 are rotated (driven) by the motor M. Here, themotor M includes a coil and a magnet that have a metal portion. Metal isused for shafts of the conveyance rollers 23. The conveyance rollers 23conveys the sheet document SH that has been drawn into the main body 3along the first conveyance path 22A. The conveyance rollers 23 cancontact to a card document C inserted into the card insertion opening 5as indicated by arrow 52, and convey the card document C along thesecond conveyance path 22B. The direction in which the documents SH andC are conveyed along the conveyance paths 22A and 22B is referred as aconveyance direction D1.

As shown in FIG. 2, the conveyance paths 22A and 22B are separated inthe vertical direction on upstream side in the conveyance direction D1(that is, rear part of the main body 3). The conveyance path 22A ispositioned above the second conveyance path 22B. The two conveyancepaths 22A and 22B joint to one common conveyance path 22. In otherwords, the downstream side of the conveyance path 22A in the conveyancedirection D1 is made in common with the downstream side of theconveyance path 22B in the conveyance direction D1. The reading sections24 and 25 are disposed on the common conveyance path 22. The readingsections 24 and 25 read images of the documents SH and C that areconveyed by the conveyance rollers 23 on the common conveyance path 22.Metal is used for an exterior case of the reading sections 24 and 25 andinternal board of the reading sections 24 and 25.

Moreover, the conveyance rollers 23 send the documents SH and C beingconveyed on the common conveyance path 22 to the discharge openings 4and 6, respectively. That is, as shown in FIG. 4, the image readingdevice 1 includes a conveyance section 26 having the motor M, the paperfeed roller 22, the conveyance rollers 23, and the first and secondconveyance paths 22A and 22B. When the conveyance section 26 conveys thedocument SH or C, the motor M, the paper feed roller 20, and theconveyance rollers 23 conveys the sheet document SH along the firstconveyance path 22A, or the card document C along the second conveyancepath 22B.

The first reading section 24 is disposed along the common conveyancepath 22 and on a lower side of the main body 3. The second readingsection 25 is disposed along the common conveyance path 22 and on anupper side of the main body 3. The reading sections 24 and 25 read, atreading positions L1 and L2, the documents SH and C conveyed along thecommon conveyance path 22 by scanning in a main scanning direction D2(i.e. left-right direction) perpendicular to the conveyance directionD1. The phrase “perpendicular to” herein means not only exactperpendicular, but also a substantially perpendicular state that is fewdegrees shifted from the orthogonal angle, for example.

(Configurations of Various Sensors)

The placement and functions of the various sensors will be described. Asshown in FIG. 3, the sheet F sensor 61 is positioned facing the paperfeed tray 2. The sheet F sensor 61 is located near a center line 50 inthe main scanning direction D2. The sheet F sensor 61 detects whether ornot a sheet document SH is located on the paper feed tray 2. The card Fsensor 62 is located near the card insertion opening 5 on the secondconveyance path 22B. The card F sensor 62 detects whether or not a carddocument C is inserted into the card insertion opening 5.

As shown in FIG. 2, the sheet R sensor 63 is located on the commonconveyance path 22, at a detection position Y that is closer to anupstream side in the conveyance direction D1 than the reading positionsL (L1, L2). As shown in FIG. 3, the sheet R sensor 63 is located nearthe center line 50 in the main scanning direction D2. The sheet R sensor63 is turned ON when the sheet document SH passes the detection positionY on the common conveyance path 22, and is turned OFF when no sheetdocument SH passes the detection position Y. That is, the sheet R sensor63 detects the position of the sheet document SH on the first conveyancepath 22A.

As shown in FIG. 3, the card R sensor 64 is located on the commonconveyance path 22, at the same detection position Y as the sheet Rsensor 63 in the conveyance direction D1. The card R sensor 64 islocated in a right end portion in the main scanning direction D2. Thecard R sensor 64 is turned ON when the card document C passes thedetection position Y on the common conveyance path 22, and is turned OFFwhen no card document C passes the detection position Y. That is, thecard R sensor 64 detects the position of the card document C on thesecond conveyance path 22B.

(Configuration of Various Boards)

The placement and configuration of the various boards will be described.As shown in FIG. 2, the mounting board 27 is disposed at a side of abottom wall of the casing 10. That is, the mounting board 27 is adjacentthe bottom wall of the casing 10. The mounting board 27 has anplate-like shape. A normal direction of the surface of the mountingboard is equal to an up-down direction. Moreover, the mounting board 27is in a rectangular shape having a long side and a short side. Themounting board 27 is disposed such that the long side extends in aleft-right direction (i.e. main scanning direction), and the short sideextends in a front-rear direction. The mounting board 27 is disposedalong the bottom wall of the casing.

As shown in FIG. 4, electronic components, such as a central processingunit (CPU) 11, a ROM 12, a RAM 13, and a board power supply unit 14, aremounted on the mounting board 27. For example, as shown in FIG. 5, theshort electronic components that are relatively short in height, such asthe CPU 11, the ROM 12, the RAM 13, and resistors 15, are mounted on alower surface of the mounting board 27. The tall electronic componentsthat are relatively tall to the short electronic components, such as theboard power supply unit 14, connectors 16, and capacitors 17, aremounted on an upper surface of the mounting board 27. The way theelectronic components are mounted on the upper and lower surfaces asdescribed above is one example. All the electronic components may bemounted on the upper or lower surface.

In the ROM 12, programs for executing each part of the image readingdevice 1 are stored. In accordance with the programs loaded from the ROM12, the CPU 11 controls each part of the image reading device 1. Forexample, in accordance with the programs loaded from the ROM 12, the CPU11 controls the reading sections 24 and 25 to read images of thedocuments SH and C, and stores the generated read data in the RAM 13.That is, the electronic components that are used when the readingsections 24 and 25 read the images are mounted on the mounting board 27.In accordance with the programs loaded from the ROM 12, the CPU 11drives the motor M of the conveyance section 26, thereby conveying thedocuments SH and C along the conveyance paths 22A and 22B. The boardpower supply unit 14 is electrically connected to an external powersource (not shown), and receives, from the external power source, thepower required for the above control.

The wireless communication board 28 is used for wireless communicationwith portable terminals, such as mobile phones, or wireless LAN routers.As shown in FIG. 3, the wireless communication board 28 is disposed, ata side of the right sidewall of the casing 10, or adjacent the rightsidewall of the casing 10, and along the right sidewall. The wirelesscommunication board 28 is connected to the mounting board 27 by aconnector 67. The connector 67 is relatively short in height compared tothe tall electronic components on the mounting board 27. The wirelesscommunication board 28 has a plate-like shape. The wirelesscommunication board 28 is disposed such that a normal direction of thesurface of the wireless communication board 27 is equal to a left-rightdirection (i.e. main scanning direction). That is, the wirelesscommunication board 28 is disposed to be perpendicular to the mountingboard 27 by the connector 67. Moreover, as shown in FIG. 2, the wirelesscommunication board 28 has a rectangular shape having a long side and ashort side. The long side of the wireless communication board 28 extendsin an up-down direction (vertical direction), and the short side of thewireless communication board 28 extends in a front-rear direction.

As shown in FIG. 4, the wireless communication board 28 includes anantenna 30 and a module unit 33. The antenna 30 is an interface thattransmits radio signals to portable terminals and receives radio signalsfrom portable terminals. The antenna 30 includes a receiving surface 31that can receive radio signals, and a transmitting surface 32 that cantransmit radio signals. On the receiving surface 31, lines (traces) arearranged in a planar pattern to receive radio signals. On thetransmitting surface 32, lines (traces) are arranged in a planar patternto transmit radio signals. The module unit 33 controls the antenna 30.That is, the module unit 33 is connected to the lines that constitutethe receiving surface 31 of the antenna 30, and to the lines thatconstitute the transmitting surface 32. According to the configurationsof the module unit 33 and the antenna 30, a circuit for controlling thetransmitting and receiving of radio signals is formed.

As shown in FIGS. 2 and 3, the wireless communication board 28 has afirst surface 28A and a second surface 28B that is opposite side of theouter surface 28A. The first surface 28A is disposed at a side of theright sidewall of the casing 10. Specifically, the first surface 28Afaces the right sidewall of the casing 10. The second surface 28B facesan inner side of the casing 10. The receiving surface 31 is disposed onthe first surface 28A. The transmitting surface 32 is disposed on thesecond surface 28B. On the wireless communication board 28, thereceiving surface 31 and the transmitting surface 32 are disposed abovethe module unit 33. The receiving surface 31 and the transmittingsurface 32 do not to overlap each other in the front-rear direction.More specifically, the receiving surface 31 is disposed on an upperfront side of the first surface 28A. The transmitting surface 32 isdisposed on an upper rear side of the second surface 28B.

The wireless communication board 28 is disposed at a lower rear side ofthe right sidewall of the casing 10. The transmitting and receivingsurfaces 31 and 32 of the wireless communication board 28 are placed atpositions that do not overlap with the reading sections 24 and 25 andthe conveyance rollers 23 in the front-rear direction. That is, thetransmitting and receiving surfaces 31 and 32 are disposed at rear sideof the reading sections 24 and 25 and the conveyance rollers 23.

The transmitting and receiving surfaces 31 and 32 of the wirelesscommunication board 28 are placed at positions that do not overlap withthe mounting board 27 in the up-down direction. That is, thetransmitting and receiving surfaces 31 and 32 are disposed above themounting board 27. More specifically, as shown in FIG. 5, thetransmitting and receiving surfaces 31 and 32 are disposed above thetall electronic components (14, 16, and 17) mounted on the upper surfaceof the mounting board 27 (see the two-dot chain line).

As shown in FIG. 2, the touch panel 65 is provided on the upper surfaceof the casing 10. The touch panel 65 includes, for example, a liquidcrystal display unit (LCD), and displays the state of the image readingdevice 1. In this case, the touch panel 65 functions as a display unit 8(see FIG. 4). The top cover 9 is formed with an opening 66 at a positioncorresponding to the touch panel 65. The opening 66 exposes the touchpanel 65 even when the top cover 9 is in the covering state. Variousbuttons are displayed on the touch panel 65 to accept instructions froma user. In this case, the touch panel 65 functions as an operation unit7 (see FIG. 4).

The display board 29 is disposed immediately below the touch panel 65.That is, the display board 29 is disposed at a side of an upper wall ofthe casing 10 in the up-down direction, or on a side opposite to a sidewhere the mounting board 27 is placed. That is, the display board 29 isadjacent the upper wall. In other words, the mounting board 27 isdisposed at the bottom end region in the casing 10 and the display board29 is disposed at the upper end region in the casing 10. The displayboard 29 is in a plate-like shape, and is disposed parallel to the upperwall of the main body 3. The display board 29 is connected to the touchpanel 65. The display board 29 includes a circuit to drive the touchpanel 65 that functions as the display unit 8.

As shown in FIG. 3, the motor M is disposed in a left side end portionof the casing 10 in the left-right direction or on an opposite side tothe wireless communication board 28. The motor M is connected to each ofthe various rollers. As shown in FIG. 5, the motor M is placed at abottom surface side of the casing 10 and on a left side of the mountingboard 27 that is similarly placed at the bottom surface side of thecasing 10. That is, the motor M is adjacent the bottom wall of thecasing 10.

2. Advantageous Effects of the Present Embodiment

(1) In the image reading device 1 of the embodiment, the mounting board27 and the wireless communication board 28 are disposed to beperpendicular to each other, not parallel to each other. FIG. 6 shows acomparative example. As shown in FIG. 6, if the mounting board 27 andthe wireless communication board 28 are disposed parallel to each other,a surface of the mounting board 27 is adjacent a surface of the wirelesscommunication board 28. Accordingly, between the adjacent surfaces, aregion where the mounting board 27 and the wireless communication board28 are connected can be easily secured. Therefore, the connector 67 thathas a relatively large area and is relatively short in height can beused to connect the mounting board 27 and the wireless communicationboard 28 in a stable manner.

In this case, however, the transmitting and receiving surfaces 31 and 32of the wireless communication board 28 are disposed at positions thatoverlap with the mounting board 27 in the up-down direction. Therefore,if electromagnetic waves generated from the electronic componentsmounted on the mounting board 27 are received by the transmitting andreceiving surfaces 31 and 32 of the wireless communication board 28,noise emerges in signals that are transmitted and received by thewireless communication board 28, leading to the deterioration of thecommunication state. Further, if the radio signals that are transmittedand received by the transmitting and receiving surfaces 31 and 32 of thewireless communication board 28 are blocked by the mounting board 27 orby metal sections of the electronic components mounted on the mountingboard 27, the strength of signals that are transmitted and received bythe wireless communication board 28 is weakened, leading to thedeterioration of the communication state.

In the image reading device 1 of the embodiment, the mounting board 27and the wireless communication board 28 are disposed perpendicular toeach other. Therefore, compared with the comparative example where themounting board 27 and the wireless communication board 28 are disposedparallel to each other, the wireless communication board 28 can beplaced at a remote place from the mounting board 27.

For example, if the transmitting and receiving surfaces 31 and 32 of theantenna 30 on the wireless communication board 28 are close to theelectronic components such as the board power supply unit 14 and CPU 11,there are adverse effects that the transmitting and receiving surfaces31 and 32 receives electromagnetic waves generated from the electroniccomponents. However, in the image reading device of the embodiment, evenas the transmitting and receiving surfaces 31 and 32 of the antenna 30are close to the electronic components such as the board power supplyunit 14 as shown in FIG. 5, the transmitting and receiving surfaces 31and 32 of the antenna 30 are disposed above the electronic componentssuch as the board power supply unit 14. Therefore, this configuration ofthe image reading device 1 can inhibits the transmitting and receivingsurfaces 31 and 32 from receiving the electromagnetic waves generatedfrom the electronic components such as the board power supply unit 14.Further, the configuration inhibits the mounting board 27 and the metalsections of the electronic components mounted on the mounting board 27from blocking the radio signals that are transmitted and received by thetransmitting and receiving surfaces 31 and 32 of the wirelesscommunication board 28.

(2) In particular, in the image reading device 1 of the embodiment, thetransmitting and receiving surfaces 31 and 32 on the wirelesscommunication board 28 are disposed above the module unit 33. Thetransmitting and receiving surfaces 31 and 32 of the wirelesscommunication board 28 are disposed above the tall electronic components(14, 16, 17) mounted on the upper surface of the mounting board 27. Thisconfiguration prevents the radio signals that are transmitted andreceived by the transmitting and receiving surfaces 31 and 32, orespecially the radio signals propagating that are perpendicularlytransmitted and received by the transmitting and receiving surfaces 31and 32 from being blocked by the mounting board 27 and the metalsections of the electronic components mounted on the mounting board 27,thereby preventing the deterioration of the communication state.

(3) As a result, there is an improvement in the directional dependenceof the communication state. FIG. 7 shows the directional dependence ofthe communication state measured by using the image reading device 1 ofthe embodiment. FIG. 8 shows the directional dependence of thecommunication state measured by using the comparative example of theimage reading device 1 shown in FIG. 6. In measuring the directionaldependence of the communication state, the communication strength ismeasured at points a certain distance LK away from four sides of theimage reading device 1, that is, the front, rear, right, and left sides.If the communication strength is greater than or equal to a specifiedvalue, it is determined that a wireless terminal can be used towirelessly communicate with the image reading device 1 (this state isshown by symbol “o” in FIGS. 7 and 8). If the communication strength isless than the specified value, it is determined that it is difficult towirelessly communicate with the image reading device 1 by using awireless terminal (this state is shown by symbol “x” in FIG. 8).

As shown in FIG. 8, in the comparative example of the image readingdevice 1 shown in FIG. 6, the communication state of the front side ofthe image reading device 1 that is relatively closer to the transmittingsurface 32 of the wireless communication board 28 is good. However, thecommunication state of the other sides of the wireless communicationboard 28 is not good. As shown in FIG. 7, in the case of the imagereading device 1 of the embodiment, the communication state of all thefour sides of the wireless communication board 28 is good. The reason isthat the above-described configuration of the embodiment prevents themounting board 27 and the metal sections of the electronic componentsmounted on the mounting board 27 from blocking the radio waves.

(4) Metal is used for an exterior case of the reading sections 24 and 25and internal board of the reading sections 24 and 25. Metal is used forshafts of the conveyance rollers 23. In the image reading device 1, thetransmitting and receiving surfaces 31 and 32 are placed at positionsthat do not overlap with the reading sections 24 and 25 and theconveyance rollers 23 in the front-rear direction. This configurationcan prevent the radio signals transmitted and received by thetransmitting and receiving surfaces 31 and 32 from being blocked by themetal sections of the reading sections 24 and 25 and the conveyancerollers 23.

(5) In the image reading device 1 of the embodiment, the transmittingand receiving surfaces 31 and 32 are disposed at an opposite side to themotor M in the main body 3 in the left-right direction. Here, metal isused for a coil and a magnet in the motor M. In this image readingdevice 1, the transmitting and receiving surfaces 31 and 32 are disposedaway from the motor M in the left-right direction. This configurationcan prevent the radio signals transmitted and received by thetransmitting and receiving surfaces 31 and 32 from being blocked by themetal sections of the motor M.

(6) In the image reading device 1 of the embodiment, in the casing 10,the display board 29 is disposed at a side of the upper wall of thecasing 10, and the mounting board 27 is disposed at a side of the bottomwall of the casing 10. In the embodiment, the touch panel 65 is providedon the upper surface of the casing 10 for considering user'sconvenience. Accordingly, the display board 29 that controls display ofthe touch panel 65 is placed immediately below the touch panel 65 tomaintain high levels of display characteristics of the touch panel 65.Further, the mounting board 27 can be provided away from the touch panel65, or at the upper surface side in the casing 10.

In this image reading device, the touch panel 65 is provided on theupper surface of the casing 10, and the mounting board 27 is provided atthe bottom side of the casing 10. This configuration is convenient for auser, and the image reading device 1 suppress mutual interferencebetween the metal sections of the boards 27 and 29.

Modifications

While the invention has been described in detail with reference to theembodiment thereof, it would be apparent to those skilled in the artthat various changes and modifications may be made therein withoutdeparting from the scope of the invention.

In the embodiment, the image reading device 1 is explained. However, thepresent invention is applicable to devices having a scanner function,such as, a multifunction peripheral having a printer function, a copierfunction, and a facsimile function in addition to a scanner function.Further, the present invention is applicable to devices not having ascanner function, only have to have a mounting board 27 and a wirelesscommunication board 28. The configuration of the mounting board 27 andthe wireless communication board 28 described in the embodiment cansuppress deterioration of communication state.

In the embodiment, the mounting board 27 includes one CPU 11. However,the mounting board 27 may include plurality of CPUs 11. Further, themounting board 27 may include hardware circuits such as ASIC(Application Specific Integrated Circuit).

(3) Programs executed by the CPU 11 are not necessarily stored in theROM 12. The programs may be stored in the CPU 11 or any other storagedevice.

(4) In the above embodiment, the wireless communication board 28 isplaced at the upper surface side of the mounting board 27 as an example.However, if the mounting board 27 is placed in an upper section of thecasing 10, the wireless communication board 28 may be placed at a lowersurface side of the mounting board 27. In this case, on the wirelesscommunication board 28, the transmitting and receiving surfaces 31 and32 is disposed below the module unit 33 the transmitting and receivingsurfaces 31 and 32 of the wireless communication board 28 is disposedbelow the electronic components mounted on the lower surface side of themounting board 27.

What is claimed is:
 1. An image reading device comprising: a casing; animage reading unit accommodated in the casing and extending in a firstdirection, the image reading unit configured to read an image of anoriginal document; a first board accommodated in the casing and mountingan electronic component, the first board extending in the firstdirection and a second direction orthogonal to the first direction; asecond board extending in the second direction and a third directionorthogonal to the first direction and the second direction; and anantenna arranged on the second board.
 2. The image reading deviceaccording to claim 1, wherein the antenna is a line arranged on thesecond board.
 3. The image reading device according to claim 1, furthercomprising: a motor; and a roller configured to be rotated by the motorabout a rotational axis extending in the first direction, wherein thecasing has: a side wall positioned at one end of the casing in the firstdirection; and another side wall positioned at another end of the casingin the first direction, wherein the antenna is closer to the side wallthan the roller in the first direction, and wherein the motor is closerto the another side wall than the roller in the first direction.
 4. Theimage reading device according to claim 3, wherein a conveying path isdefined in the casing, the conveying path extending in the seconddirection and positioned on upside of the first board, the originaldocument being conveyed on the conveying path, wherein the rollerpositioned on the conveying path, wherein the image reading unitincludes a first image reading unit positioned on one side of theconveying path.
 5. The image reading device according to claim 3,further comprising a guide wall inside the casing, the guide walldefining a conveying path, the guide wall extending in the seconddirection and positioned on upside of the first board, the originaldocument being conveyed along the guide wall, wherein the rollerpositioned on the conveying path, wherein the image reading unitincludes a first image reading unit positioned on one side of theconveying path.
 6. The image reading device according to claim 4,wherein the image reading unit further includes a second image readingunit positioned on another side of the conveying path so that theconveying path is interposed between the first image reading unit andthe second image reading unit.
 7. The image reading device according toclaim 6, wherein the image reading unit is positioned shifted from thefirst reading unit and the second reading unit in the second direction.8. The image reading device according to claim 3, further comprising aCPU arranged on the first board and configured to control the imagereading unit, wherein the antenna is positioned on upside of the CPU. 9.The image reading device according to claim 8, wherein the first boardis interposed between the CPU and the antenna.
 10. The image readingdevice according to claim 1, the second board further includes a moduleunit configured to control transmitting and receiving of the radiosignal, wherein the antenna is positioned on upside of the module unit.11. The image reading device according to claim 10 wherein the casingincludes a top surface, the image reading device further comprising: adisplay panel disposed on the top surface; and a display board disposedbelow the display panel and configured to drive the display panel. 12.The image reading device according to claim 1, wherein the casing has aside wall positioned at one end of the casing in the first direction,and wherein the antenna faces the side wall.
 13. An image reading devicecomprising: a casing having: a side wall positioned at one end thereofin a first direction; and another side wall positioned at another end ofthe casing in the first direction; a roller accommodated in the casing,the roller being rotatable about a rotational axis extending in thefirst direction, the roller having a first end and a second end in thefirst direction, a length between the first end and the side wall beingshorter than a length between the second end and the side wall; an imagereading unit accommodated in the casing and extending in the firstdirection and configured to read an image of an original document; amotor positioned between the side wall and the first end in the firstdirection, the motor configured to rotate the roller; and an antennapositioned between the another side wall and the second end in the firstdirection.
 14. The image reading device according to claim 13, furthercomprising a board positioned between the another side wall and thesecond end in the first direction, wherein the antenna is a linearranged on the board.
 15. The image reading device according to claim14, further comprising a module unit configured to control transmittingand receiving of the radio signal, wherein the antenna is positioned onupside of the module unit.
 16. The image reading device according toclaim 15, wherein the module unit is arranged on the board.
 17. Theimage reading device according to claim 14, further comprising a furtherboard accommodated in the casing and mounting an electronic component,the further board being positioned below the roller.
 18. The imagereading device according to claim 17, wherein the board is orthogonal tothe further board.
 19. The image reading device according to claim 17,further comprising a CPU arranged on the further board and configured tocontrol the image reading unit, wherein the antenna is positioned onupside of the CPU.
 20. The image reading device according to claim 19,wherein the further board is interposed between the CPU and the antenna.